Telegraph relays amplified electrical signals in a telegraph line. Telegraph messages traveled as a series of electrical pulses through a wire from a transmitter to a receiver. Short pulses made a dot, slightly longer pulses a dash. The pulses faded in strength as they traveled through the wire, to the point where the incoming signal was too weak to directly operate a receiving sounder or register. A relay detected a weak signal and used a battery to strengthen the signal so that the receiver would operate.
Relays required adjustment to compensate for changing conditions on the line. Older designs used adjusting screws and springs to change the position of the coils and the sensitivity of the armature–a tricky task. Polarized or “polar” relays like this unit made by Charles Dubois & Son, used a special coil-mount to eliminate the springs and coil adjusters. The coils were mounted to one end of a permanent magnet and the armature connected to the other end, so the coils and the armature had opposite magnetic polarity. Without an incoming signal the armature, attracted equally by both coils, sat balanced between them. The coils were wound in such a way that an incoming signal reinforced the magnetic field of one coil and reduced the field in the other, attracting the armature to one side to make contact and activate the relay.
This design was modified by Samuel P. Freir of New Jersey who obtained US Patent 493620 for Western Union. Freir designed the relay for use on a quadruplex line where four signals moved simultaneously on a single wire. The simultaneous signals could cause a typical “neutral relay [to generate] a false signal.” Freir's design corrected the problem.
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